Report and Opinion 2017;9(8) 9

Report and Opinion 2017;9(8) 9

Report and Opinion 2017;9(8) http://www.sciencepub.net/report Geologyand Geochemistry of Magmatic Rocks, Gabal Elba Area, South Eastern Desert, Egypt Abu El-Leil 1, H. M. Azzam2, M.H. Bekhit1, and I.A. El-Shaheed2 1 Department of Geology, Faculty of Science, Al-Azhar University, Cairo Branch, Egypt 2Egyptian Mineral Resources Authority (EMRA), Egypt [email protected] Abstract: The magmatic rocks of Gabal Elba area comprise metavolcanics related to early orogenic stage, tonalite, granodiorite and monzogranite related to syn to late orogenic stage and rhyolite porphery, gabbro, alkali granite, syeniteand quartz syenite (Elba ring complex), related to post orogenic stage. The metavolcanics mainly have theolitic affinity, indicating island arc regime. The tonalite, granodiorite and monzogranite have calc-alkaline affinity indicating continental arc regime. The rhyolite porphery, gabbro, alkali granite, syenite and quartz syenite show theolitic affinity for gabbro and alkaline affinity for rhyolite porphery, alkali granite, syenite and quartz syenite, indicating bimodal magma, developed within continental plate and rifting regime to form Elba ring complex. [Abu El-Leil, H. M. Azzam, M.H. Bekhit, and I.A. El-Shaheed. Geologyand Geochemistry of Magmatic Rocks, Gabal Elba Area, South Eastern Desert, Egypt. Rep Opinion 2017;9(8):9-27]. ISSN 1553-9873 (print); ISSN 2375-7205 (online). http://www.sciencepub.net/report. 2. doi:10.7537/marsroj090817.02. Keywords: Geologyand; Geochemistry; Magmatic Rocks; Gabal Elba Area; South Eastern Desert; Egypt Introduction (Fig.1). It represents a part of Arabian-Nubian Shield, Gabal Elba areacovers about 300 km2 covered by some Neoproterozoic rocks an addition to betweenlatitudes 22° 07` to 22° 15` N, and longitudes some Phanerozoic rocks known as Gabal Elba ring 36° 15` 40" to 36° 33`E, at the South Eastern Desert complex. Fig.1: Location map of the study area. The area under study had been studied by the occurrence, tectonic environment and different authors (Hume, 1935, Bassyouni, 1957, geochronology of the Egyptian ring complexes have Hussein, 1977, El-Bedewy,1993, EL-Alfy et al., 1994, been reviewed by several authors (El-Ramly et al., Nasr et al., 1994, Nasr and Youssef, 1995, Khalid et 1969 and 1971, Hashad et al., 1979, Dc Gruyter and al, 1997, Shahin, 2000). Vogel, 1981, Serencsits et al., 1979, El-Ramly and Elba ring complex is considered as one of Hussein, 1985). However, four groups of Phanerozoic famous ring complex in the Eastern Desert of the Pan ring complexes have identified. The first of African Orogenic belt, most of circular alkaline Paleozoicage (404±8 Ma), the second Permo -Triasic complexes, emplaced in an intercontinental setting (230-200 Ma), the third of Late Jurassic-Early within the Arabian-Nubian Shield (El-Ramly and Cretaceous, (160- 120 Ma), and thefourth of Late Hussein, 1985, Harris,1985, Vail, 1985). Moreover, Cretaceous age (100-80 Ma) (Serencsits et al. 1979, 9 Report and Opinion 2017;9(8) http://www.sciencepub.net/report Hashad and El-Ramly, 1979, Meneisy and Kreuzer Gabal Elba area are related to three tectonic stages, 1974). known asearly orogenic stage of island arc Geology assemblage, syn to late orogenic stage of continental arc assemblage and post orogenic stageofrifting assemblage. The three stages comprise different rock units that arranged from older to younger according the sequence. Early orogenic stage (Island arc assemblage) The early orogenic stage comprisesmetavolcanics of Island arc assemblage, forming low to moderate hills at the western part of the mapped area (Fig. 3), they are metabasalt and metaandesite, directly cut by the alkali granite, syenite and quartz syenite of Gabal Elba ring complex, as well as tonalite and granodiorite at Wadi Serimtai (Fig. 4 & 5). According tofield observationsand given new geologic map (Fig. 2), the examined rock units of Fig.2: Geologic map of Gabal Elba area (modified after Nasr et.al. 1994). Syn to late orogenic stage (Continental arc other hand, it is traversed by some quartz veins, assemblage) particular in NE-SW. The syn to late orogenic stage of Continental arc Post orogenic stage (Rifting) assemblage comprises essentially I-type granitoids of The Post orogenic stage (Rifting) comprises tonalite, granodiorite and monzogranite. The tonalite mainly the youngest rock units of Gabal Elba ring and granodiorite occur as an elongated NE – SW small complex, is composed essentially ofrhyolite porphery, massive rocks, highly weathered with characterized gabbro, alkali granite and syenite - quartz syenite. exfoliationas well as they enclose some xenoliths (Fig. The rhyolite porphery represents the older rock 6). They are intruded by alkali granite (Fig. 7) and units of Elba ring complex, cropping out at south of some basic dykes. On the other hand, the tonalite and the ring complex, as small mass of moderate to granodiorite rocks intrude directly the metavolcanics relatively high relief (Fig. 9), usually of porphyritic with sharp obvious contact. In turn, they directly texture, sometime associating with some pyroclastic intrude the metavolcanics with sharp obvious contact. sheets (Fig. 10). The rhyolite porphery and associated The monzogranite is represented by small mass pyroclastic sheets directly invade the metavolcanic, as along Wadi Serimtai at the east of Gabal Elba, directly well as they are directly cut by the alkali granite. intruding the tonalite and granodiorite (Fig. 8). On the The gabbro represents the second member of the rock units of Elba ring complex. It is represented by 10 Report and Opinion 2017;9(8) http://www.sciencepub.net/report small mass at the north of Gabal Elba along Wadi Osir than the rhyolite porphery and gabbro, which directly Eirab (Fig. 11). Itoccurs as sub-rounded mass, directly cut by them, as well as some basic dyke swarmsand cut by the alkali granite and syenite-quartz syenite. quartz veins. The alkali granite representsthe third member of The syenite – quartz syenite appear as low to the ring complex. It occurs as sub- rounded plutons moderate jointing semicircular exposures (Fig. 13) forming up the main bulk of Gabal Elba ring complex surrounding the northern part of Gabal Elba alkali and characterized by cavernous shape (Fig. 12), granite pluton. They are representing the younger rock divided by NE-SW fault along Wadi Osir Eirab. Field member of Elba ring complex, which directly cut the study indicated that the alkali granite has younger age alkali granite. AG MV Fig.3 Moderate hill of joined metavolcanics. Fig.4 Alkali granite (AG) invading in metavolcanics (M) Sy MV Fig.5 Sharp intrusive contact between metavolcanic (MV) and quartz syenite (Sy). Fig.6 Mafic xenoliths in tonalite. Fig.7 Alkali granite of Gabal Elba invading in tonalite- Fig.8 Contact between monzogranite and tonalite. granodiorite. 11 Report and Opinion 2017;9(8) http://www.sciencepub.net/report AG Rh MV Fig. 9 Medium relief of rhyolite porphery (Rh) at south of Gabal Elba and shows metavolcanic (MV) and alkali Fig.10 Laminations of rhyolite porphery. granite (AG). Fig. 11 Contact between gabbro and syenite - quartz syenite. Fig.12 Cavernous weathering in alkali granite. Fig.13 Jointing in syenite - quartz syenite. E Petrography to sub-rounded crystals covering about 17.5% of rock arly orogenic stage (Island arc assemblage) composition, partially or totally altered to iron oxides, The early orogenic stage of island arc actinolite and chlorite. assemblage comprises the metabasalt and The metaandesite is fine grained rock, displaying metaandesite composition. The metabasalt is fine porphyroblast and schistose textures. It consists grained rock composed essentially of plagioclase and mainly of plagioclase up to (60%), hornblende augitein addition to some actinolite, chlorite, biotite, (14.5%), biotite (12.5%), and quartz (6.5%), with and carbonate as secondary minerals. Plagioclase some secondary chlorite, actinolite and iron oxides. (An38 - An55) occurs either as fine grained or The Plagioclase (An30 - An40) is the most common porphyroblast crystals (Fig. 14) covering about 52.5% mineral (Fig. 15), represented by idiomorphic and sub of rock composition. Augite occurs asreacted rounded – idiomorphic crystals, partially to totally altered, 12 Report and Opinion 2017;9(8) http://www.sciencepub.net/report whereas their twining are masked. Hornblende occurs The alkali feldspars are mainlymicrocline, as pale green crystals partially altered to chlorite. orthoclase, microcline –perthite and orthoclase Biotite occurs as flaky crystals, often with dark brown perthite. The microcline is relatively abundant. pleochroism. Quartz occurs either as porphyroblast Perthite is mainly of vein type (Fig. 20). Quartz occurs deformed or fine crystals distributing overall the rock as anhedral crystals often filling the interstitial spaces mineral constituents. of mineral constituents (Fig. 21), sometimes as Syn to late orogenic stage (Continental arc intergrowing fine crystals with microcline and assemblage) orthoclase to form micrographic and granophyric Tonalite subordinate textures. Plagioclase of oligoclase (An12- The tonalite is a coarse-grained equigranular An25), albite is relatively less (An10-An15). Most often, rock, composed essentially of plagioclase, quartz, they show carlsbad-albite and percline twinning, as hornblende and biotite in addition to minor amount of well as zonation (Fig. 22). Biotite and muscovite are alkali feldspars. Iron oxides and allanite are the percent, whereas biotite is the common mafic

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